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1 #include <stdio.h>
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2 #include "assload.h"
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3 #include "logger.h"
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4 #include "datapath.h"
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5
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6 #ifdef USE_ASSIMP
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7
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8 #include <vector>
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9 #include <map>
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10 #include "assimp/cimport.h"
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11 #include "assimp/scene.h"
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12 #include "assimp/postprocess.h"
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13 #include "texman.h"
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14 #include "material.h"
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15
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16 using namespace std;
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17
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18 static bool load_material(Material *mat, const aiMaterial *aimat);
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19 static Object *load_node(const aiScene *aiscn, const aiNode *ainode);
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20 static Mesh *load_mesh(const aiScene *aiscn, const aiMesh *aimesh);
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21 static Curve *load_curve(const aiScene *aiscn, const aiMesh *aimesh);
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22 static bool load_bones(Mesh *mesh, const aiMesh *aimesh);
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23
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24 static Vector3 assimp_vector(const aiVector3D &v);
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25 static Quaternion assimp_quat(const aiQuaternion &q);
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26 static Matrix4x4 assimp_matrix(const aiMatrix4x4 &aim);
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27 static long assimp_time(const aiAnimation *anim, double aitime);
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28 static void print_hierarchy(const aiNode *node);
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29
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30 static map<string, Object*> obj_by_name;
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31 static map<aiMesh*, Mesh*> mesh_by_aimesh;
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32
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33 bool load_ass(Scene *scn, const char *fname)
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34 {
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35 static bool init_done;
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36
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37 if(!init_done) {
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38 static aiLogStream log_stream = aiGetPredefinedLogStream(aiDefaultLogStream_STDOUT, 0);
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39 aiAttachLogStream(&log_stream);
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40 //aiEnableVerboseLogging(1);
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41 init_done = true;
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42 }
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43
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44 unsigned int proc_flags = aiProcess_JoinIdenticalVertices |
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45 aiProcess_CalcTangentSpace |
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46 aiProcess_Triangulate |
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47 aiProcess_SortByPType |
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48 aiProcess_FlipUVs;
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49
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50 const aiScene *aiscn = aiImportFile(datafile_path(fname).c_str(), proc_flags);
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51 if(!aiscn) {
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52 error_log("failed to load file: %s\n", fname);
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53 return false;
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54 }
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55
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56 info_log("NODE HIERARCHY:\n");
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57 print_hierarchy(aiscn->mRootNode);
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58 info_log("-------------------\n");
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59
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60 Vector3 root_pos, root_scaling(1.0, 1.0, 1.0);
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61 Quaternion root_rot;
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62
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63 if(aiscn->mRootNode) {
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64 Matrix4x4 root_matrix = assimp_matrix(aiscn->mRootNode->mTransformation);
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65 root_pos = root_matrix.get_translation();
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66 root_rot = root_matrix.get_rotation_quat();
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67 root_scaling = root_matrix.get_scaling();
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68 }
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69
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70 // load all meshes
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71 for(unsigned int i=0; i<aiscn->mNumMeshes; i++) {
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72 aiMesh *aimesh = aiscn->mMeshes[i];
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73 Mesh *mesh;
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74 Curve *curve;
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75
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76 switch(aimesh->mPrimitiveTypes) {
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77 case aiPrimitiveType_TRIANGLE:
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78 if((mesh = load_mesh(aiscn, aimesh))) {
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79 mesh_by_aimesh[aimesh] = mesh;
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80 scn->meshes.push_back(mesh);
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81 }
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82 break;
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83
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84 case aiPrimitiveType_LINE:
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85 if((curve = load_curve(aiscn, aimesh))) {
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86 scn->curves.push_back(curve);
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87 }
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88 break;
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89
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90 default:
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91 error_log("unsupported primitive type: %u\n", aimesh->mPrimitiveTypes);
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92 break;
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93 }
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94 }
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95
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96 // load all the nodes recursively
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97 for(unsigned int i=0; i<aiscn->mRootNode->mNumChildren; i++) {
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98 Object *obj = load_node(aiscn, aiscn->mRootNode->mChildren[i]);
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99 if(obj) {
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100 Object *dummy = new Object;
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101 dummy->set_name((string("dummyroot_") + string(obj->get_name())).c_str());
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102 dummy->set_position(root_pos);
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103 dummy->set_rotation(root_rot);
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104 dummy->set_scaling(root_scaling);
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105 dummy->add_child(obj);
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106
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107 obj = dummy;
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108 scn->objects.push_back(obj);
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109 }
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110 }
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111
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112 // load and attach the bones to the meshes
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113 for(unsigned int i=0; i<aiscn->mNumMeshes; i++) {
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114 aiMesh *aimesh = aiscn->mMeshes[i];
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115
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116 Mesh *mesh = mesh_by_aimesh[aimesh];
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117 load_bones(mesh, aimesh);
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118 }
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119
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120 obj_by_name.clear();
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121 mesh_by_aimesh.clear();
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122
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123 aiReleaseImport(aiscn);
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124 return true;
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125 }
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126
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127 static bool load_material(Material *mat, const aiMaterial *aimat)
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128 {
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129 aiColor4D aicol;
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130 float shin, shin_str;
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131
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132 if(aiGetMaterialColor(aimat, AI_MATKEY_COLOR_DIFFUSE, &aicol) == 0) {
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133 mat->diffuse = Vector3(aicol[0], aicol[1], aicol[2]);
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134 }
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135 if(aiGetMaterialColor(aimat, AI_MATKEY_COLOR_SPECULAR, &aicol) == 0) {
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136 mat->specular = Vector3(aicol[0], aicol[1], aicol[2]);
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137 }
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138
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139 unsigned int count = 1;
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140 if(aiGetMaterialFloatArray(aimat, AI_MATKEY_SHININESS_STRENGTH, &shin_str, &count) != 0) {
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141 shin_str = 1.0;
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142 }
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143 if(aiGetMaterialFloatArray(aimat, AI_MATKEY_SHININESS, &shin, &count) == 0) {
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144 // XXX can't remember how I came up with this...
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145 mat->shininess = shin * shin_str * 0.0001 * 128.0;
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146 }
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147
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148 // load textures
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149 struct { int type; aiTextureType aitype; } textypes[] = {
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150 {TEX_DIFFUSE, aiTextureType_DIFFUSE},
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151 {TEX_NORMAL, aiTextureType_NORMALS},
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152 {TEX_SPECULAR, aiTextureType_SPECULAR}
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153 };
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154
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155 for(int i=0; i<sizeof textypes / sizeof *textypes; i++) {
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156 aiString aipath;
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157
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158 if(aiGetMaterialTexture(aimat, textypes[i].aitype, 0, &aipath) == 0) {
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159 char *tmp, *fname = aipath.data;
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160
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161 if((tmp = strrchr(fname, '/'))) {
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162 fname = tmp + 1;
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163 }
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164 if((tmp = strrchr(fname, '\\'))) {
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165 fname = tmp + 1;
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166 }
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167
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168 if(*fname) {
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169 mat->tex[textypes[i].type] = texset.get(fname);
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170 }
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171 }
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172 }
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173
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174 return true;
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175 }
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176
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177 static Object *load_node(const aiScene *aiscn, const aiNode *ainode)
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178 {
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179 Object *obj = new Object;
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180 obj->set_name(ainode->mName.data);
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181
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182 if(ainode->mNumMeshes) {
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183 if(ainode->mNumMeshes > 1) {
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184 info_log("%s warning: node %s has more than one meshes (%u)\n", __FUNCTION__,
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185 ainode->mName.data, ainode->mNumMeshes);
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186 }
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187
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188 aiMesh *aimesh = aiscn->mMeshes[ainode->mMeshes[0]];
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189 obj->set_mesh(mesh_by_aimesh[aimesh]);
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190
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191 // also grab the material of this mesh
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192 load_material(&obj->material, aiscn->mMaterials[aimesh->mMaterialIndex]);
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193 }
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194
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195 // if there are animations, grab the first and try to use it
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196 if(aiscn->mNumAnimations) {
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197 aiAnimation *aianim = aiscn->mAnimations[0];
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198 aiNodeAnim *ainodeanim = 0;
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199 for(unsigned int i=0; i<aianim->mNumChannels; i++) {
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200 if(strcmp(aianim->mChannels[i]->mNodeName.data, ainode->mName.data) == 0) {
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201 ainodeanim = aianim->mChannels[i];
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202 break;
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203 }
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204 }
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205
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206 if(ainodeanim) {
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207 // load all position (translation) keyframes
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208 for(unsigned int i=0; i<ainodeanim->mNumPositionKeys; i++) {
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209 Vector3 pos = assimp_vector(ainodeanim->mPositionKeys[i].mValue);
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210 long msec = assimp_time(aianim, ainodeanim->mPositionKeys[i].mTime);
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211 obj->set_position(pos, msec);
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212 }
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213
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214 // load all rotation keyframes
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215 for(unsigned int i=0; i<ainodeanim->mNumRotationKeys; i++) {
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216 Quaternion rot = assimp_quat(ainodeanim->mRotationKeys[i].mValue);
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217 if(rot.length_sq() < SMALL_NUMBER) {
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218 continue;
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219 }
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220 rot.normalize();
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221 long msec = assimp_time(aianim, ainodeanim->mRotationKeys[i].mTime);
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222 obj->set_rotation(rot, msec);
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223 }
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224
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225 // load all scaling keyframes
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226 for(unsigned int i=0; i<ainodeanim->mNumScalingKeys; i++) {
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227 Vector3 scale = assimp_vector(ainodeanim->mScalingKeys[i].mValue);
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228 long msec = assimp_time(aianim, ainodeanim->mScalingKeys[i].mTime);
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229 obj->set_scaling(scale, msec);
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230 }
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231
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232 obj->set_extrapolator(EXTRAP_REPEAT); // loop animation
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233 } else {
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234 Matrix4x4 local_matrix = assimp_matrix(ainode->mTransformation);
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235 obj->set_local_matrix(local_matrix);
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236 }
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237 }
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238
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239 /* recurse to all children */
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240 for(unsigned int i=0; i<ainode->mNumChildren; i++) {
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241 Object *child = load_node(aiscn, ainode->mChildren[i]);
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242 if(child) {
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243 obj->add_child(child);
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244 }
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245 }
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246
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247 obj_by_name[obj->get_name()] = obj;
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248 return obj;
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249 }
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250
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251 static Mesh *load_mesh(const aiScene *aiscn, const aiMesh *aimesh)
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252 {
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253 Mesh *mesh = new Mesh;
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254
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255 int num_verts = aimesh->mNumVertices;
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256 int num_faces = aimesh->mNumFaces;
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257
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258 mesh->set_attrib_data(MESH_ATTR_VERTEX, 3, num_verts, (float*)aimesh->mVertices);
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259
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260 if(aimesh->mNormals) {
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261 mesh->set_attrib_data(MESH_ATTR_NORMAL, 3, num_verts, (float*)aimesh->mNormals);
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262 }
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263 if(aimesh->mTangents) {
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264 mesh->set_attrib_data(MESH_ATTR_TANGENT, 3, num_verts, (float*)aimesh->mTangents);
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265 }
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266 if(aimesh->mTextureCoords[0]) {
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267 mesh->set_attrib_data(MESH_ATTR_TEXCOORD, 3, num_verts, (float*)aimesh->mTextureCoords[0]);
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268 }
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269
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270 if(aimesh->mBones) {
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271 float *weights = mesh->set_attrib_data(MESH_ATTR_BONEWEIGHTS, 4, num_verts, 0);
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272 float *boneidx = mesh->set_attrib_data(MESH_ATTR_BONEIDX, 4, num_verts, 0);
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273
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274 memset(weights, 0, num_verts * 4 * sizeof *weights);
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275 memset(boneidx, 0, num_verts * 4 * sizeof *boneidx);
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276
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277 int *vertex_bone_count = new int[num_verts];
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278 memset(vertex_bone_count, 0, num_verts * sizeof *vertex_bone_count);
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279
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280 for(unsigned int i=0; i<aimesh->mNumBones; i++) {
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281 aiBone *aibone = aimesh->mBones[i];
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282
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283 // for every vertex affected by this bone:
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284 for(unsigned int j=0; j<aibone->mNumWeights; j++) {
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285 aiVertexWeight *aiweight = aibone->mWeights + j;
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286 int vidx = aiweight->mVertexId;
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287 int vert_boneidx = vertex_bone_count[vidx];
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288 if(vert_boneidx >= 4) {
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289 error_log("WARNING vertex with more than 4 bones found\n");
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290 continue;
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291 }
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292
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293 weights[vidx * 4 + vert_boneidx] = aiweight->mWeight;
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294 boneidx[vidx * 4 + vert_boneidx] = (float)i;
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295 vertex_bone_count[vidx]++;
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296 }
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297 }
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298
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299 delete [] vertex_bone_count;
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300
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301 // normalize weights
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302 for(int i=0; i<num_verts; i++) {
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303
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304 float wsum = 0.0f;
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305
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306 for(int j=0; j<4; j++) {
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307 wsum += weights[i * 4 + j];
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308 }
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309
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310 if(1.0 - wsum > 1e-4) {
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311 error_log("WARNING vertex with weights < 1 (%f), normalizing...\n", wsum);
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312
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313 if(wsum < 1e-6) {
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314 // this is clearly broken, let's use the first bone in full
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315 weights[i * 4] = 1.0;
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316 } else {
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317 weights[i * 4] /= wsum;
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318 weights[i * 4 + 1] /= wsum;
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319 weights[i * 4 + 2] /= wsum;
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320 weights[i * 4 + 3] /= wsum;
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321 }
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322 }
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323 }
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324 }
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325
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326 unsigned int *iptr = mesh->set_index_data(num_faces * 3);
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327 for(int i=0; i<num_faces; i++) {
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328 for(int j=0; j<3; j++) {
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329 *iptr++ = aimesh->mFaces[i].mIndices[j];
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330 }
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331 }
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332
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333 return mesh;
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334 }
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335
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336 static Curve *load_curve(const aiScene *aiscn, const aiMesh *aimesh)
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337 {
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338 Curve *curve = new Curve;
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339
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340 for(unsigned int i=0; i<aimesh->mNumVertices; i++) {
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341 Vector3 pt = assimp_vector(aimesh->mVertices[i]);
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342 curve->add_point(pt);
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343 }
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344 info_log("loaded curve with %d points\n", aimesh->mNumVertices);
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345
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346 return curve;
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347 }
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348
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349 static bool load_bones(Mesh *mesh, const aiMesh *aimesh)
|
nuclear@0
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350 {
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nuclear@0
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351 if(!aimesh->mNumBones) {
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352 return false;
|
nuclear@0
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353 }
|
nuclear@0
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354
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nuclear@0
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355 for(unsigned int i=0; i<aimesh->mNumBones; i++) {
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356 aiBone *aibone = aimesh->mBones[i];
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357 Object *obj = obj_by_name[aibone->mName.data];
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358 if(!obj) {
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|
359 error_log("bone %s not found\n", aibone->mName.data);
|
nuclear@0
|
360 continue;
|
nuclear@0
|
361 }
|
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|
362
|
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|
363 obj->set_bone_matrix(assimp_matrix(aibone->mOffsetMatrix));
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|
364 mesh->add_bone(obj);
|
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365
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366 info_log("adding bone: %s\n", obj->get_name());
|
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|
367 }
|
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|
368
|
nuclear@0
|
369 return true;
|
nuclear@0
|
370 }
|
nuclear@0
|
371
|
nuclear@0
|
372 static Vector3 assimp_vector(const aiVector3D &v)
|
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|
373 {
|
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374 return Vector3(v[0], v[1], v[2]);
|
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375 }
|
nuclear@0
|
376
|
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|
377 static Quaternion assimp_quat(const aiQuaternion &q)
|
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|
378 {
|
nuclear@0
|
379 return Quaternion(q.w, Vector3(q.x, q.y, q.z));
|
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|
380 }
|
nuclear@0
|
381
|
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|
382 static Matrix4x4 assimp_matrix(const aiMatrix4x4 &aim)
|
nuclear@0
|
383 {
|
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|
384 Matrix4x4 m;
|
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|
385 memcpy(m[0], &aim, 16 * sizeof(float));
|
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|
386 return m;
|
nuclear@0
|
387 }
|
nuclear@0
|
388
|
nuclear@0
|
389 /* convert an assimp keyframe time (ticks) into milliseconds */
|
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|
390 static long assimp_time(const aiAnimation *anim, double aitime)
|
nuclear@0
|
391 {
|
nuclear@0
|
392 double sec;
|
nuclear@0
|
393 if(anim->mTicksPerSecond < 1e-6) {
|
nuclear@0
|
394 // assume time is in frames?
|
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|
395 sec = aitime / 30.0;
|
nuclear@0
|
396 } else {
|
nuclear@0
|
397 sec = aitime / anim->mTicksPerSecond;
|
nuclear@0
|
398 }
|
nuclear@0
|
399 return (long)(sec * 1000.0);
|
nuclear@0
|
400 }
|
nuclear@0
|
401
|
nuclear@0
|
402 static void print_hierarchy(const aiNode *node)
|
nuclear@0
|
403 {
|
nuclear@0
|
404 static int lvl;
|
nuclear@0
|
405 static int lvlopen[256];
|
nuclear@0
|
406
|
nuclear@0
|
407 for(int i=0; i<lvl; i++) {
|
nuclear@0
|
408 putchar(' ');
|
nuclear@0
|
409 if(lvlopen[i]) {
|
nuclear@0
|
410 putchar(i >= lvl - 1 ? '+' : '|');
|
nuclear@0
|
411 } else {
|
nuclear@0
|
412 putchar(i >= lvl - 1 ? '+' : ' ');
|
nuclear@0
|
413 }
|
nuclear@0
|
414 }
|
nuclear@0
|
415 info_log("- \"%s\"\n", node->mName.data);
|
nuclear@0
|
416
|
nuclear@0
|
417 lvlopen[lvl] = 1;
|
nuclear@0
|
418
|
nuclear@0
|
419 lvl++;
|
nuclear@0
|
420 for(unsigned int i=0; i<node->mNumChildren; i++) {
|
nuclear@0
|
421 if(i == node->mNumChildren - 1) {
|
nuclear@0
|
422 lvlopen[lvl - 1] = 0;
|
nuclear@0
|
423 }
|
nuclear@0
|
424 print_hierarchy(node->mChildren[i]);
|
nuclear@0
|
425 }
|
nuclear@0
|
426 lvl--;
|
nuclear@0
|
427 }
|
nuclear@0
|
428
|
nuclear@0
|
429 #else // !defined USE_ASSIMP
|
nuclear@0
|
430
|
nuclear@0
|
431 bool load_ass(Scene *scn, const char *fname)
|
nuclear@0
|
432 {
|
nuclear@0
|
433 error_log("load_ass: assimp support not compiled in\n");
|
nuclear@0
|
434 return false;
|
nuclear@0
|
435 }
|
nuclear@0
|
436
|
nuclear@0
|
437 #endif
|